13 research outputs found
Droplet-shaped waves: Causal finite-support analogs of X-shaped waves
A model of steady-state X-shaped wave generation by a superluminal
(supersonic) pointlike source infinitely moving along a straight line is
extended to a more realistic causal scenario of a source pulse launched at time
zero and propagating rectilinearly at constant superluminal speed. In the case
of infinitely short (delta) pulse, the new model yields an analytical solution,
corresponding to the propagation-invariant X-shaped wave clipped by a
droplet-shaped support, which perpetually expands along the propagation and
transversal directions, thus tending the droplet-shaped wave to the X-shaped
one.Comment: 14 pages, 6 figure
Making sense of light: the use of optical spectroscopy techniques in plant sciences and agriculture
As a result of the development of non-invasive optical spectroscopy, the number of prospective technologies of plant monitoring is growing. Being implemented in devices with different functions and hardware, these technologies are increasingly using the most advanced data processing algorithms, including machine learning and more available computing power each time. Optical spectroscopy is widely used to evaluate plant tissues, diagnose crops, and study the response of plants to biotic and abiotic stress. Spectral methods can also assist in remote and non-invasive assessment of the physiology of photosynthetic biofilms and the impact of plant species on biodiversity and ecosystem stability. The emergence of high-throughput technologies for plant phenotyping and the accompanying need for methods for rapid and non-contact assessment of plant productivity has generated renewed interest in the application of optical spectroscopy in fundamental plant sciences and agriculture. In this perspective paper, starting with a brief overview of the scientific and technological backgrounds of optical spectroscopy and current mainstream techniques and applications, we foresee the future development of this family of optical spectroscopic methodologies.info:eu-repo/semantics/publishedVersio
Effects of Glyphosate-Based Herbicide on Primary Production and Physiological Fitness of the Macroalgae Ulva lactuca
The use of glyphosate-based herbicides (GBHs) worldwide has increased exponentially over
the last two decades increasing the environmental risk to marine and coastal habitats. The present
study investigated the effects of GBHs at environmentally relevant concentrations (0, 10, 50, 100, 250,
and 500 g L1) on the physiology and biochemistry (photosynthesis, pigment, and lipid composition,
antioxidative systems and energy balance) of Ulva lactuca, a cosmopolitan marine macroalgae species.
Although GBHs cause deleterious effects such as the inhibition of photosynthetic activity, particularly
at 250 g L1, due to the impairment of the electron transport in the chloroplasts, these changes are
almost completely reverted at the highest concentration (500 g L1). This could be related to the
induction of tolerance mechanisms at a certain threshold or tipping point. While no changes occurred
in the energy balance, an increase in the pigment antheraxanthin is observed jointly with an increase
in ascorbate peroxidase activity. These mechanisms might have contributed to protecting thylakoids
against excess radiation and the increase in reactive oxygen species, associated with stress conditions,
as no increase in lipid peroxidation products was observed. Furthermore, changes in the fatty acids
profile, usually attributed to the induction of plant stress response mechanisms, demonstrated the
high resilience of this macroalgae. Notably, the application of bio-optical tools in ecotoxicology, such
as pulse amplitude modulated (PAM) fluorometry and laser-induced fluorescence (LIF), allowed
separation of the control samples and those treated by GBHs in different concentrations with a high
degree of accuracy, with PAM more accurate in identifying the different treatmentsinfo:eu-repo/semantics/publishedVersio
Effects of Glyphosate-Based Herbicide on Primary Production and Physiological Fitness of the Macroalgae Ulva lactuca
The use of glyphosate-based herbicides (GBHs) worldwide has increased exponentially over
the last two decades increasing the environmental risk to marine and coastal habitats. The present
study investigated the effects of GBHs at environmentally relevant concentrations (0, 10, 50, 100, 250,
and 500 µg·L
−1
) on the physiology and biochemistry (photosynthesis, pigment, and lipid composition,
antioxidative systems and energy balance) of Ulva lactuca, a cosmopolitan marine macroalgae species.
Although GBHs cause deleterious effects such as the inhibition of photosynthetic activity, particularly
at 250 µg·L
−1
, due to the impairment of the electron transport in the chloroplasts, these changes are
almost completely reverted at the highest concentration (500 µg·L
−1
). This could be related to the
induction of tolerance mechanisms at a certain threshold or tipping point. While no changes occurred
in the energy balance, an increase in the pigment antheraxanthin is observed jointly with an increase
in ascorbate peroxidase activity. These mechanisms might have contributed to protecting thylakoids
against excess radiation and the increase in reactive oxygen species, associated with stress conditions,
as no increase in lipid peroxidation products was observed. Furthermore, changes in the fatty acids
profile, usually attributed to the induction of plant stress response mechanisms, demonstrated the
high resilience of this macroalgae. Notably, the application of bio-optical tools in ecotoxicology, such
as pulse amplitude modulated (PAM) fluorometry and laser-induced fluorescence (LIF), allowed
separation of the control samples and those treated by GBHs in different concentrations with a high
degree of accuracy, with PAM more accurate in identifying the different treatments.info:eu-repo/semantics/publishedVersio
Fluoxetine induces photochemistry-derived oxidative stress on Ulva lactuca
Emerging pollutants impose a high degree of stress on marine ecosystems,
compromising valuable resources, the planet and human health. Pharmaceutical
residues often reach marine ecosystems, and their input is directly related to human
activities. Fluoxetine is an antidepressant, and one of the most prescribed selective
serotonin reuptake inhibitors globally and has been detected in aquatic ecosystems
in concentrations up to 40 μg L−1
. The present study aims to evaluate the impact of
fluoxetine ecotoxicity on the photochemistry, energy metabolism and enzyme
activity of Ulva lactuca exposed to environmentally relevant concentrations (0.3, 0.6,
20, 40, and 80 μg L−1
). Exogenous fluoxetine exposure induced negative impacts on
U. lactuca photochemistry, namely on photosystem II antennae grouping and
energy fluxes. These impacts included increased oxidative stress and elevated
enzymatic activity of ascorbate peroxidase and glutathione reductase. Lipid
content increased and the altered levels of key fatty acids such as
hexadecadienoic (C16:2) and linoleic (C18:2) acids revealed strong correlations
with fluoxetine concentrations tested. Multivariate analyses reinforced the
oxidative stress and chlorophyll a fluorescence-derived traits as efficient
biomarkers for future toxicology studies.info:eu-repo/semantics/publishedVersio
Characterisation of estuarine intertidal macroalgae by laser-induced fluorescence
The article reports the application of laser-induced fluorescence (LIF) for the assessment of macroalgae communities of estuarine intertidal areas. The method was applied for the characterisation of fifteen intertidal macroalgae species of the Tagus estuary, Portugal, and adjacent coastal area. Three bands characterised the LIF spectra of red macroalgae with emission maxima in the ranges 577–583 nm, 621–642 nm and 705–731 nm. Green and brown macroalgae showed one emission maximum in the red region (687–690 nm) and/or one in the far-red region (726–732 nm). Characteristics of LIF emission spectra were determined by differences in the main fluorescing pigments: phycoerythrin, phycocyanin and chlorophyll a (Chl a). In the green and brown macroalgae groups, the relative significance of the two emission maxima seems to be related to the thickness of the photosynthetic layer. In thick macroalgae, like Codium tomentosum or Fucus vesiculosus, the contribution of the far-red emission fluorescence peak was more significant, most probably due to re-absorption of the emitted red Chl a fluorescence within the dense photosynthetic layer. Similarly, an increase in the number of layers of the thin-blade green macroalgae Ulva rigida caused a shift to longer wavelengths of the red emission maximum and the development of a fluorescence peak at the far-red region. Water loss from Ulva's algal tissue also led to a decrease in the red/far-red Chl fluorescence ratio (F685/F735), indicating an increase in the density of chloroplasts in the shrinking macroalgal tissue during low tide exposure.info:eu-repo/semantics/publishedVersio
Photosynthetic pigment laser-induced fluorescence indicators for the detection of changes associated with trace element stress in the diatom model species Phaeodactylum tricornutum
This work reports changes on cell number, growth rate, trace element content, chlorophyll a (Chl a) and carotenoid concentrations, and laser-induced fluorescence (LIF) spectra of Phaeodactylum tricornutum exposed to Co, Ni, Cu, Zn, Cd, Hg, Pb, and a mixture of all elements combined (Mix). The total levels of trace elements associated with the cells were significantly higher in the exposed than in control ones. Concomitantly, specific cell growth was significantly lower in exposed P. tricornutum, suggesting that trace elements affected the microalgae physiology. The LIF emission spectra showed two typical emission bands in red (683-698 nm) and far-red (725-730 nm) regions. Deviations in LIF spectra and changes in F685/F735 ratio were investigated as indicators of trace element-induced changes. Fluorescence intensity emitted by exposed microalgae decreased in far-red region when compared to control cells, suggesting Chl a damage and impairment of pigment biosynthesis pathways by trace elements, confirmed by Chl a and carotenoid concentration decrease. Significant increase in F685/F735 ratio was detected for all elements except Zn and more accentuated for Co, Hg, and Mix. Significant deviations in wavelength emission maxima in red region were also more significant (between 8 and 13 nm) for Co, Hg, and Mix. Growth changes agreed with deviations in LIF spectra and F685/F735 ratio, supporting their applicability as indicators. This study clearly shows F685/F735 ratio and the deviations in wavelength emission maxima as adequate trace element stress indicators and P. tricornutum as a promising biomonitor model species. LIF-based techniques can be used as time-saving, highly sensitive, and effective alternative tool for the detection of trace element stress, with potential for remote sensing and trace element contamination screening in marine coastal areas.info:eu-repo/semantics/publishedVersio